More information SEI

Projects

2020-2024 - SubRisk : New Probabilistic Seismic Hazard, Losses and Risk Assessment in strong seismic prone regions – AXA Research Fund Joint Research Initiative (JRI) - Coordinator
2018-2023 - URBASIS-EU : New challenges for Urban Engineering Seismology - Projet H2020 - MSCA-Innovative Training Network - Grant H2020-MSCA-ITN-2018 - Coordinator
2018-2021 - SISM@lp-Swarm : Processus et conséquence des essaims de sismicité dans les Alpes. Mieux informer pour mieux interpréter - Programme Interrégional du Massif des Alpes (POIA-FEDER) – Coordinator
2017-2021 - URBASIS-Décision : Analyse multi-critères des conséquences du séisme, des moyens d’action en France et de la responsabilité des acteurs - Projet Fondation MAIF - Coordinator

Scientific papers

● Mistry H.K., Hernandez A., Guéguen P., Lombardi D. 2024. Effect of earthquake sequences on risk-based catastrophe bond pricing, Risk Analysis, 1-16. doi : 10.1111/risa.14288

● Ghimire S., Guéguen P. 2024. Host-to-target region testing of machine learning models for seismic damage prediction in buildings. Natural Hazards. doi :10.1007/S11069-023-06394-Z

● Ghimire S, Guéguen P, Pothon A, Schorlemmer D. 2023. Testing machine learning models for heuristic building damage assessment applied to the Italian Database of Observed Damage (DaDO), Natural Hazards and Earth System Sciences, 23(10):3199–3218. doi : 10.5194/nhess-2023-7

● Dollet C, Guéguen P., Hernandez, A 2023. A comprehensive synthetic database of global seismic losses covering the period 1967-2018. Bull. Earthquake. Engng. doi :10.1007/s10518-023-01695-x

● Ghimire S., Guéguen P., Giffard-Roisin S., Schorlemmer D. 2022. Testing machine learning models for seismic damage prediction at regional scale using building-damage dataset compiled after 2015 Gorkha Nepal earthquake. Earthquake Spectra, doi :10.1177/87552930221106495.

● Dollet C, Guéguen P. 2022. Global occurrence models for human and economic losses due to earthquakes (1967–2018) considering exposed GDP and population. Natural Hazards, 110 (1), 349-372. doi : 10.1007/s11069-021-04950-z

● Benjelloun J., de Sigoyer J., Dessales H., Baillet L., Guéguen P., Sahin M. 2020. Historical earthquake scenarios for the middle strand of the North Anatolian fault deduced from archeo‐damage inventory and building deformation modeling. Seismological Research Letters, 92 (1) : 583–598. doi : 10.1785/0220200278

● Pothon A., Guéguen P., Buisine S., Bard P.-Y. 2020. Comparing probabilistic seismic hazard maps with ShakeMap footprints for Indonesia, Seismol. Res. Lett., 91(2A) : 847–858. doi : 10.1785/0220190171

● Makhoul N., Navarro C., Lee J.S., Guéguen P. 2020. A comparative study of buried pipeline fragilities using the seismic damage to the Byblos wastewater network, International Journal of Disaster Risk Reduction, 51, 101775. doi : 10.1016/j.ijdrr.2020.101775

● Pothon A., Guéguen P., Buisine S., Bard, P.-Y. 2019. California earthquake insurance unpopularity : the issue is the price, not the risk perception, Nat. Hazards Earth Syst. Sci., 19, 1909–1924. doi : 10.5194/nhess-2019-29.

● Riedel I., Guéguen P. 2018. Modelling of damage-related earthquake losses in a moderate seismic-prone country and cost-benefit evaluation of retrofit investments : application to France. Natural Hazards, 90(2):639-662. doi :10.1007/s11069-017-3061-6

● Guettiche A., Guéguen P., Mimoune M. 2017. Economic and human loss empirical models for earthquakes in the Mediterranean region, with particular focus on Algeria. International Journal of Disaster Risk Science, 8(4), 415-434. doi : 10.1007/s13753-017-0153-6

● Guettiche A., Guéguen P., Mimoune M. 2017 Seismic vulnerability assessment using Association Rule Learning - Application to the city of Constantine, Algeria. Natural Hazard, 86(3) : 1223–1245. doi : 10.1007/s11069-016-2739-5

● Trevlopoulos K., Guéguen P. 2016. Period elongation-based framework for operative assessment of the variation of seismic vulnerability of reinforced concrete buildings during aftershock sequences, Soil Dynamics and Earthquake Engineering, 84, 224-237. doi : 10.1016/j.soildyn.2016.02.009

● Guéguen P., Yepes H., Riedel I. 2015. On the value of earthquake scenario : the Kathmandu recent lesson. Front. Built Environ. doi : 10.3389/fbuil.2015.00026

● Riedel I., Guéguen P., Dalla Mura M., Pathier E., Leduc T., Chanussot J., 2015. Seismic Vulnerability Assessment of Urban Environments in Moderate-to-Low Seismic Hazard Regions Using Association Rule Learning and Support Vector Machine Methods, Natural Hazards, 76(2):1111-1141. doi : 10.1007/s11069-014-1538-0

● Riedel I., Guéguen P., Dunand F., Cottaz S. 2014. Macro-scale vulnerability assessment of cities using Association Rule Learning, Seismological Research Letters, 85(2) : 295-305. doi 10.1785/0220130148

● Dunand F., Guéguen P. 2012. Comparison between seismic and domestic risk in moderate seismic hazard prone region : the Grenoble City (France) test site, Nat. Hazards Earth Syst. Sci., 12, 511-526, doi:10.5194/nhess-12-511-2012

● Michel C., Guéguen P., Causse M. 2012. Seismic vulnerability assessment to slight damage based on experimental modal parameters, Earthquake Engineering and Structural Dynamics, 41(1) : 81-98, DOI : 10.1002/eqe.1119

● Boudis M, Saillard Y., Guéguen P., Davoine P.-A. 2010. Modèle d’aide à la décision pour la prévention parasismique urbaine. Une approche multi-agent de la vulnérabilité du bâti, European Journal of GIS and Spatial Analysis, 20(3):279-302 - doi:10.3166/rig.20.279-302 - Author version : pdf

● Guéguen P., Michel C., LeCorre L. 2007. A simplified approach for vulnerability assessment in moderate-to-low seismic hazard regions : application to Grenoble (France), Bull Earthq. Engng., 4(3), 467-490. DOI : 10.1007/s10518-007-9036-3

● Dunand F., Ait Meziane Y., Guéguen P., Chatelain J.-L., Guillier B., Ben Salem R., Hadid M., Hellel M., Kiboua A., Laouami N., Machane D., Mezouer N., Nour A., Oubaiche E.H., Remas A. 2004. Utilisation du bruit de fond pour l’analyse des dommages des bâtiments de Boumerdes suite au séisme du 21 mai 2003, Mém Serv. Géol. Alg., 12, 177-191. In french - En français